Manufacturer Part Number
LCMXO1200C-3FT256C
Manufacturer
Lattice Semiconductor
Introduction
MachXO family FPGA targeted for a wide range of low-density applications
Product Features and Performance
Integrates 1200 logic cells
150 LABs/CLBs for versatile logic distribution
9421 Total RAM Bits for data storage
211 I/O pins for extensive connectivity
Flexible power supply voltage from 1.71V to 3.465V
Surface mount 256-LBGA package for compact PCB design
Operating temperature range from 0°C to 85°C
Product Advantages
Ideal for low-density applications requiring a balance of performance and power
Offers a robust solution for complex programmable logic in a small form factor
Extensive I/O support enhances peripheral interfacing
Key Technical Parameters
Number of Logic Elements/Cells: 1200
Number of I/O: 211
Total RAM Bits: 9421
Voltage Supply: 1.71V ~ 3.465V
Operating Temperature: 0°C ~ 85°C
Mounting Type: Surface Mount
Quality and Safety Features
Manufactured to industry standards for quality and reliability
Thermal performance within specified operating temperature range
Compatibility
Wide voltage range compatibility for easy integration with other components
256-LBGA packaging suitable for standard surface mount processes
Application Areas
Consumer electronics
Automotive applications
Telecommunications
Low-density programmable logic tasks in various industries
Product Lifecycle
Obsolete status suggesting end of life cycle
Users should consider replacement or upgrade options
Check for availability of successor products or necessary stock for future use
Several Key Reasons to Choose This Product
Compact and versatile FPGA from a reputable manufacturer, Lattice Semiconductor
Suitable for designs requiring a moderate amount of logic cells
Provides a balance between performance, power consumption, and I/O capabilities
Offers programmable logic solutions for cost-sensitive and space-constrained applications
Obsolete status might benefit those seeking drop-in replacements for existing designs or specialized applications where newer alternatives are not viable